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a0c03e8cfe
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a0c03e8cfe
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aa0fae3b38
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3 changed files with 53 additions and 14 deletions
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@ -52,7 +52,6 @@ Operator | Associativity
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`+` `-` | left
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`\|>` | left
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`==` | requires parens
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`..` | requires parens
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`=>` | right
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`->` | right
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`=` | right
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@ -15,10 +15,38 @@ This module contains functions for tokenizing Akhamoth source code.
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-define(is_id_start(C), C >= $a, C =< $z; C >= $A, C =< $Z; C =:= $_).
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-define(is_space(C), C =:= $\s; C =:= $\t).
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-define(is_op2(T), T =:= <<"|>">>; T =:= <<"=>">>; T =:= <<"->">>; T =:= <<"==">>).
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-define(is_op1(T),
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T =:= <<"+">>;
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T =:= <<"-">>;
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T =:= <<"*">>;
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T =:= <<"/">>;
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T =:= <<"=">>;
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T =:= <<".">>
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).
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-doc """
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Tokens for which the category is the same as the content.
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""".
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-type token_simple() :: '(' | ')' | '[' | ']' | '{' | '}'.
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-type token_simple() ::
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'.'
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| '+'
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| '-'
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| '*'
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| '/'
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| '='
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| '|>'
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| '=>'
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| '->'
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| '=='
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| ','
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| ':'
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| '('
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| ')'
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| '['
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| ']'
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| '{'
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| '}'.
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-doc """
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Tokens for which there is content beyond the category.
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@ -62,16 +90,20 @@ next(Lexer)
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Attempts to get the next token in the input.
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""".
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-spec next(lexer()) -> none | {ok, token(), lexer()}.
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next(#lexer{source = <<C, Rest/bytes>>} = Lx) when ?is_id_start(C) ->
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next(#lexer{source = <<C, Rest/binary>>} = Lx) when ?is_id_start(C) ->
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lex_id(Lx#lexer{source = Rest}, 1);
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next(#lexer{source = <<C, Rest/bytes>>} = Lx) when ?is_digit(C) ->
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next(#lexer{source = <<C, Rest/binary>>} = Lx) when ?is_digit(C) ->
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lex_number(Lx#lexer{source = Rest}, 1);
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next(#lexer{source = <<C, Rest/bytes>>, offset = Offset} = Lx) when ?is_space(C) ->
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next(Lx#lexer{source = Rest, offset = Offset + 1});
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next(#lexer{source = <<$\n, Rest/bytes>>, offset = Offset} = Lx) ->
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new_line(Lx#lexer{source = Rest, offset = Offset + 1});
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next(#lexer{source = <<$\r, $\n, Rest/bytes>>, offset = Offset} = Lx) ->
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new_line(Lx#lexer{source = Rest, offset = Offset + 2});
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next(#lexer{source = <<C, Rest/binary>>} = Lx) when ?is_space(C) ->
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next(Lx#lexer{source = Rest, offset = Lx#lexer.offset + 1});
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next(#lexer{source = <<T:2/binary, Rest/binary>>, offset = Offset} = Lx) when ?is_op2(T) ->
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{ok, {binary_to_atom(T), Offset}, Lx#lexer{source = Rest, offset = Offset + 2}};
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next(#lexer{source = <<T:1/binary, Rest/binary>>, offset = Offset} = Lx) when ?is_op1(T) ->
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{ok, {binary_to_atom(T), Offset}, Lx#lexer{source = Rest, offset = Offset + 1}};
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next(#lexer{source = <<$\n, Rest/binary>>} = Lx) ->
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new_line(Lx#lexer{source = Rest, offset = Lx#lexer.offset + 1});
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next(#lexer{source = <<$\r, $\n, Rest/binary>>} = Lx) ->
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new_line(Lx#lexer{source = Rest, offset = Lx#lexer.offset + 2});
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next(#lexer{source = <<>>}) ->
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none.
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@ -79,7 +111,7 @@ next(#lexer{source = <<>>}) ->
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-spec lex_id(#lexer{}, non_neg_integer()) -> return().
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lex_id(
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#lexer{source = <<C, Rest/bytes>>} = Lx,
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#lexer{source = <<C, Rest/binary>>} = Lx,
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Len
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) when ?is_id_start(C); ?is_digit(C) ->
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lex_id(Lx#lexer{source = Rest}, Len + 1);
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@ -88,7 +120,7 @@ lex_id(#lexer{offset = Offset} = Lx, Len) ->
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-spec lex_number(#lexer{}, non_neg_integer()) -> return().
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lex_number(
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#lexer{source = <<C, Rest/bytes>>} = Lx,
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#lexer{source = <<C, Rest/binary>>} = Lx,
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Len
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) when ?is_digit(C); C =:= $_ ->
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lex_number(Lx#lexer{source = Rest}, Len + 1);
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@ -1,6 +1,9 @@
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-module(akhamoth).
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-export([compile_file/1, compile_binary/1, collect/2]).
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-export([
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compile_file/1,
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compile_binary/1
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]).
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compile_file(Path) ->
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{ok, Source} = file:read_file(Path),
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@ -9,10 +12,15 @@ compile_file(Path) ->
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compile_binary(Source) ->
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Lx = akh_lex:new(Source),
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{Tokens, SourceMap} = collect(Lx, []),
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lists:map(fun({T, O, _}) -> {T, akh_source_map:location(O, SourceMap)} end, Tokens).
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lists:map(fun(T) -> location(T, SourceMap) end, Tokens).
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collect(Lx, Acc) ->
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case akh_lex:next(Lx) of
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none -> {Acc, akh_lex:source_map(Lx)};
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{ok, T, L} -> collect(L, [T | Acc])
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end.
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location({T, O, _}, SourceMap) ->
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{T, akh_source_map:location(O, SourceMap)};
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location({T, O}, SourceMap) ->
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{T, akh_source_map:location(O, SourceMap)}.
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